Environmental pertinence interface

ABSTRACT

An environmental pertinence interface generated by an example apparatus, method, and computer program product is provided. The apparatus receives an interface request from a mobile device and location data relating to the mobile device. The apparatus queries a database to identify environmental objects that satisfy a proximity threshold. The apparatus identifies environmental pertinence digital content items when the proximity threshold is satisfied. The apparatus applies user permissions rules to determine a user-permitted environmental pertinence digital content item set and generates an environmental pertinence interface for display by the mobile device.

PRIORITY CLAIM

This application claims priority to U.S. Provisional Patent ApplicationNo. 62/438,133 filed on Dec. 22, 2016, entitled “ENVIRONMENTALPERTINENCE INTERFACE,” the disclosure of which is hereby incorporated byreference in its entirety.

TECHNOLOGICAL FIELD

Various embodiments of the present invention are directed to providingimproved computer systems that are configured to provide an enhanceduser interface.

BACKGROUND

User interfaces supported by computer systems are intended to present orconvey information to a user. Applicant has identified a number ofdeficiencies and problems associated with conventional user interfacesand associated computing devices. Through applied effort, ingenuity, andinnovation, solutions to improve such techniques and devices have beenrealized and are described herein.

BRIEF SUMMARY

In some example embodiments, an apparatus, including at least aprocessor and a memory associated with the processor having computercoded instructions therein, for generating an environmental pertinenceinterface is provided. The apparatus of this embodiment may include anenvironmental pertinence server coupled with the processor where theenvironmental pertinence server may be configured to receive aninterface request from a mobile device associated with a user profile,receive device location data associated with the mobile device, andquery an environmental object location database to identifyenvironmental objects that satisfy a proximity threshold based on thedevice location data. The apparatus of this embodiment may, for eachinstance in which the proximity threshold is satisfied, query a digitalcontent item database associated with a plurality of softwareapplications to identify a preliminary environmental pertinence digitalcontent item set. The apparatus of this embodiment may further applyuser permissions rules to the preliminary environmental pertinencedigital content item set to generate a user-permitted environmentalpertinence digital content item set. The apparatus of this embodimentmay still further generate the environmental pertinence interface basedon each user-permitted environmental pertinence digital content item setand transmit the environmental pertinence interface to the mobiledevice.

In some cases, the environmental object location database may comprisesecond device location data of a second mobile device associated with asecond user profile, and the environmental pertinence server may beconfigured to compare the device location data to the second devicelocation data to identify if the second mobile device is one of theenvironmental objects that satisfy the proximity threshold.

In other cases, the environmental object location database may compriseobject location data associated with a located object, and theenvironmental pertinence server may be configured to compare the devicelocation data to the object location data to identify if the locatedobject associated with the object location data is one of theenvironmental objects that satisfy the proximity threshold. In such acase, the located object may be associated with an object profile.

In some cases, the environmental object location database may comprisesecond device location data of a second mobile device associated with asecond user profile and object location data associated with a locatedobject, and the environmental pertinence server may be configured tocompare the device location data to the second device location data andthe object location data, respectively, to identify if one or more ofthe second mobile device and the located object are environmentalobjects that satisfy the proximity threshold.

In other cases, the environmental pertinence server may be furtherconfigured to rank the user-permitted environmental pertinence digitalcontent item set according to one or more pertinence factors, identifydigital content items that satisfy a pertinence threshold, and generatethe environmental pertinence interface. In such a case, the pertinencefactors further may comprise at least one of access time data,modification data, digital content size data, user exclusivity data,relationship data, authorship data, mouse over data, or key word data.

In some cases, the device location data associated with the mobiledevice may be determined via analyzing scheduling data received from themobile device

In further example embodiments, a method for presenting an environmentalpertinence interface via an environmental pertinence server coupled witha processor is presented. The method of this embodiment may include thesteps of receiving an interface request from a mobile device associatedwith a user profile, receiving device location data associated with themobile device, and querying an environmental object location database toidentify environmental objects that satisfy a proximity threshold basedon the device location data. The method of this embodiment may, for eachinstance in which the proximity threshold is satisfied, include queryinga digital content item database associated with a plurality of softwareapplications to identify a preliminary environmental pertinence digitalcontent item set. The method of this embodiment may further includeapplying user permissions rules to the preliminary environmentalpertinence digital content item set and generating a user-permittedenvironmental pertinence digital content item set. The method of thisembodiment may still further include generating the environmentalpertinence interface based on each user-permitted environmentalpertinence digital content item set and transmitting the environmentalpertinence interface to the mobile device.

In some cases, the environmental object location database may comprisesecond device location data of a second mobile device associated with asecond user profile, and the environmental pertinence server may beconfigured to compare the device location data to the second devicelocation data to identify if the second mobile device is one of theenvironmental objects that satisfy the proximity threshold.

In other cases, the environmental object location database may compriseobject location data associated with a located object, and theenvironmental pertinence server may be configured to compare the devicelocation data to the object location data to identify if the locatedobject associated with the object location data is one of theenvironmental objects that satisfy the proximity threshold. In such acase, the located object may be associated with an object profile.

In some cases, the environmental object location database may comprisesecond device location data of a second mobile device associated with asecond user profile and object location data associated with a locatedobject, and the environmental pertinence server may be configured tocompare the device location data to the second device location data andthe object location data, respectively, to identify if one or more ofthe second mobile device and the located object are environmentalobjects that satisfy the proximity threshold.

In other cases, the method may further include ranking theuser-permitted environmental pertinence digital content item setaccording to one or more pertinence factors, identifying digital contentitems that satisfy a pertinence threshold, and generating theenvironmental pertinence interface. In such a case, the pertinencefactors may include at least one of access time data, modification data,digital content size data, user exclusivity data, relationship data,authorship data, mouse over data, or key word data.

In some cases, the device location data associated with the mobiledevice may be determined via analyzing scheduling data received from themobile device

In some yet further example embodiments, a computer program product isprovided that comprises at least one non-transitory computer-readablestorage medium having computer-executable program code portions storedtherein, the computer executable program code portions comprisingprogram code instructions. The computer program product may includeprogram code instructions for receiving an interface request from amobile device associated with a user profile, receiving device locationdata associated with the mobile device, and querying an environmentalobject location database to identify environmental objects that satisfya proximity threshold based on the device location data. The computerprogram product may include program code instructions, for each instancein which the proximity threshold is satisfied, for querying a digitalcontent item database associated with a plurality of softwareapplications to identify a preliminary environmental pertinence digitalcontent item set. The computer program product may further includeprogram code instructions for applying user permissions rules to thepreliminary environmental pertinence digital content item set andgenerating a user-permitted environmental pertinence digital contentitem set. The computer program product may also include program codeinstructions for generating the environmental pertinence interface basedon each user-permitted environmental pertinence digital content item setand transmitting the environmental pertinence interface to the mobiledevice.

In some cases, the environmental object location database may includesecond device location data of a second mobile device associated with asecond user profile, and the environmental pertinence server may beconfigured to compare the device location data to the second devicelocation data to identify if the second mobile device is one of theenvironmental objects that satisfy the proximity threshold.

In other cases, the environmental object location database may includeobject location data associated with a located object, and theenvironmental pertinence server may be configured to compare the devicelocation data to the object location data to identify if the locatedobject associated with the object location data is one of theenvironmental objects that satisfy the proximity threshold. In such acase, the located object may be associated with an object profile.

In some cases, the environmental object location database may includesecond device location data of a second mobile device associated with asecond user profile and object location data associated with a locatedobject, and the environmental pertinence server may be configured tocompare the device location data to the second device location data andthe object location data, respectively, to identify if one or more ofthe second mobile device and the located object are environmentalobjects that satisfy the proximity threshold.

In other cases, the computer program product may further include programcode instructions for ranking the user-permitted environmentalpertinence digital content item set according to one or more pertinencefactors, identifying digital content items that satisfy a pertinencethreshold, and generating the environmental pertinence interface. Insuch a case, the pertinence factors further may comprise at least one ofaccess time data, modification data, digital content size data, userexclusivity data, relationship data, authorship data, mouse over data,or key word data.

In some cases, the device location data associated with the mobiledevice may be determined via analyzing scheduling data received from themobile device

BRIEF DESCRIPTION OF THE DRAWINGS

Having thus described certain example embodiments of the invention ingeneral terms, reference will now be made to the accompanying drawings,which are not necessarily drawn to scale, and wherein:

FIG. 1 shows an example system having an environmental pertinence serverstructured in accordance with some embodiments;

FIG. 2 shows a schematic block diagram of the environmental pertinenceserver of FIG.1;

FIG. 3 shows a flowchart illustrating generation of an environmentalpertinence interface, such as by the system of FIG. 1, in accordancewith an example embodiment of the present invention;

FIG. 4 shows a flowchart illustrating generation of an environmentalpertinence interface including proximity thresholds and userpermissions, such as by the system of FIG. 1, in accordance with anexample embodiment of the present invention;

FIG. 5 shows a flowchart illustrating generation of an environmentalpertinence interface considering a second mobile device, such as by thesystem of FIG. 1, in accordance with an example embodiment of thepresent invention;

FIG. 6 shows a flowchart illustrating generation of an environmentalpertinence interface considering a located object, such as by the systemof FIG. 1, in accordance with an example embodiment of the presentinvention;

FIG. 7 shows a flowchart illustrating generation of an environmentalpertinence interface considering a second mobile device and a locatedobject, such as by the system of FIG. 1, in accordance with an exampleembodiment of the present invention;

FIG. 8 shows a flowchart illustrating ranking digital content items viapertinence factors, such as by the system of FIG. 1, in accordance withan example embodiment of the present invention;

FIG. 9 shows an example output of an environmental pertinence interface;and

FIG. 10 shows various locations indicators in accordance with an exampleembodiment of the present invention.

DETAILED DESCRIPTION

Some embodiments of the present invention will now be described morefully hereinafter with reference to the accompanying drawings, in whichsome, but not all, embodiments of the invention are shown. Indeed,various embodiments of the invention may be embodied in many differentforms and should not be construed as limited to the embodiments setforth herein; rather, these embodiments are provided so that thisdisclosure will satisfy applicable legal requirements. Like referencenumerals refer to like elements throughout. As used herein, thedescription may refer to an “apparatus.” However, elements of theapparatus described herein may be equally applicable to the claimedmethod and computer program product. Thus, use of any such terms shouldnot be taken to limit the spirit and scope of embodiments of the presentinvention.

Definition of Terms

Certain terms used in connection with exemplary embodiments are definedbelow.

As used herein, the terms “data,” “content,” “information,” and similarterms may be used interchangeably to refer to data capable of beingtransmitted, received, and/or stored in accordance with embodiments ofthe present invention. Thus, use of any such terms should not be takento limit the spirit and scope of embodiments of the present invention.Further, where a computing device is described herein to receive datafrom another computing device, it will be appreciated that the data maybe received directly from the another computing device, or may bereceived indirectly via one or more intermediary computing devices, suchas, for example, one or more environmental pertinence servers, relays,routers, network access points, base stations, hosts, and/or the like,sometimes referred to herein as a “network.” Similarly, where acomputing device is described herein to send data to another computingdevice, it will be appreciated that the data may be sent directly to theanother computing device or may be sent indirectly via one or moreintermediary computing devices, such as, for example, by one or moreservers, relays, routers, network access points, base stations, hosts,and/or the like.

As used herein, the term “digital content items” refers to anyelectronic media content item that is intended to be used in either anelectronic form or as printed output and which is retrievable by orotherwise associated with any of the plurality of software applicationsthat are accessible by the environmental pertinence server. A digitalcontent item, for example, may be in the form of a stored documentassociated with a collaborative project within a software application.Other digital content items include images, audio files, video files,text files, and the like. Digital content items may be any digitallystorable item accessible by or otherwise associated with at least onesoftware application as defined below.

As used herein, the terms “application program,” “mobile application,”“mobile app,” and “software application” refer to computer-executableapplication software programmed to or capable of running on a processingunit of a computing device. Example software applications may includeword processors, email, calendars, shared workspaces, issue tracking,software development tools, enterprise wiki collaboration, code coverageanalysis, source code repository, peer code review, project management,code hosting, service desks, status monitoring pages, internet browsers,collaborative spaces, text/voice/video chat, sign on identity, bugreporting, and the like including, but not limited to, JIRA®, JIRAStudio®, Confluence®, Atlassian Bamboo, Atlassian Crowd®, AtlassianClover®, FishEye®, Atlassian Crucible®, GreenHopper®, Bitbucket®,Atlassian Bonfire®, SourceTree by Atlassian™, Atlassian Stash™,HipChat™, JIRA Service Desk™, JIRA Agile™, JIRA Capture™, and Trello®.

As used herein, the term “environmental pertinence server” refers to acomputing service that is accessible via one or more computing devicesor mobile devices, and that is operable to provide access to a pluralityof software applications. In some examples, the environmental pertinenceserver may take the form of a central server disposed in communicationwith one or more additional servers and modules running softwareapplications, and having access to one or more databases storing digitalcontent items and application related data and/or the like.

As used herein, the term “environmental pertinence interface” refers toa digitally rendered user interface that is generated by anenvironmental pertinence server in accordance with various embodimentsdiscussed herein and configured for display on a mobile device. Anexemplary environmental pertinence interface is configured to enable auser to view and use one or more digital content items associated withone or more software applications. For example, an environmentalpertinence interface may be configured to enable a user to accesssoftware applications for sending and receiving messages, viewing andediting shared workspaces, accessing development tools, managingprojects, processing service requests, and the like. Exemplaryenvironmental pertinence interfaces may be rendered in any desired formincluding, but not limited to, as a mobile application for display on amobile device (e.g., a smartphone, tablet computer, wearable, etc.), awebpage or website for display on a mobile or non-mobile computingdevice via the Internet, and the like. The environmental pertinenceserver used to generate the environmental pertinence interface mayreceive various forms of data, including location data, associated withmobile devices, located objects, and any other environmental object.

As used herein, the terms “user permissions rules,” “user permissions,”and “permissions” refer to configurations, settings, instructions, data,or indications of rights that that are interpreted by a computer systemto allow (or not allow) a user or a group of users to access, use,create, and/or publish digital content items and/or softwareapplications. An exemplary user permissions rule may instruct a computersystem to enable only the author of a digital content item to edit ordelete the digital content item from memory accessible to the computersystem.

As used herein, the terms “user profile” and “profile” refer to acollection of preferences, settings, configurations, mobile deviceidentifiers, located object identifiers, data, and informationassociated with a specific user. A profile refers therefore to theexplicit digital representation of a user's identity and other data orinformation associated with the user. A user profile configured inaccordance with the present invention is accessible by one or more ofthe software applications that are supported by the computer system and,thus, may include application-specific preferences, settings,configurations, data, and information. In some embodiments, a userprofile can be used to store a description of characteristics of theuser and/or of the client device, as well as credentials and preferencesof the user. In still another embodiment, a user profile may includeuser permissions and device location data reported by one or more mobiledevices that are associated with the user profile.

As used herein, the terms “mobile computing device” and “mobile device”refer to computer hardware and/or software that is configured to accessa service made available by the environmental pertinence server and,among various other functions, is configured to directly, or indirectly,report device location data. Example mobile devices may include asmartphone, a tablet computer, a laptop computer, a wearable device, auser's access badge and the like. In other embodiments, a mobile devicemay include a “smart device” that is equipped with chip of otherelectronic device that is configured to communicate with theenvironmental pertinence server via Bluetooth, NFC, Wi-Fi, 3G, 4G, RFIDprotocols, and the like. In one example, a mobile device may include anobject that is equipped with a Wi-Fi radio that is configured tocommunicate with a Wi-Fi access point that is disposed in networkcommunication with the environmental pertinence server. In anotherembodiment, a mobile device may include an object that is equipped withan RFID tag that is readable by an RFID reader that is disposed innetwork communication with the environmental pertinence server.

As used herein, the term “located object” refers to any object whoselocation is known by the system or environmental pertinence server, butwhich does not transmit its own location (e.g., device location data)via a network to the environmental pertinence server. For example, alocated object may be a desk or other item of office furniture wherein auser or system administrator has defined location coordinates for theobject and uploaded or otherwise stored such coordinates in a datarepository accessible by the environmental pertinence server. In variousembodiments, a located object may refer to spaces or rooms (e.g.,offices, conference rooms, shared work spaces, etc.) that areidentifiable on a digitally renderable map.

As used herein, the term “proximity threshold” refers to a definedmathematical difference between location coordinates for two objects(e.g., mobile device, located object, etc.). By way of example, aproximity threshold may be a mathematical representation of the distancebetween various mobile devices and located objects. In some embodiments,the proximity threshold may refer to a defined mathematical differencebetween an array of location coordinates (e.g., array of location datadefining a perimeter of a room), and location coordinates associatedwith an object (e.g., mobile device, located object, etc.). By way ofexample, a proximity threshold may refer to a mathematicalrepresentation of a distance (e.g., a radius of 10 feet, a polygondefined by user-inputted data points, etc.) defined by a located object(e.g., a conference room, meeting location, etc.). In some otherembodiments, the proximity threshold may refer to a defined mathematicaldifference between the average location coordinates for two objects. Byway of example, a mobile device and located object may each iterativelytransmit location data such that the mathematical representation of thedistance between the mobile device and the located object varies. Insuch an embodiment, the proximity threshold may refer to the differencebetween the average location coordinate for the mobile device and theaverage location coordinate for the located object. The proximitythreshold may be set by a system administrator or may beprogrammatically determined by the system perhaps with a trainableclassifier or other machine learning model.

As used herein, the term “environmental object interest region” refersto a proximity threshold, as defined above, where a plurality oflocation coordinates are associated with an environmental object suchthat the environmental pertinence module, in conjunction a processor,memory, and the like, may determine an interest region associated withthe environmental object. Other objects (e.g., mobile devices, locatedobjects, etc.) may be determined to be located within the environmentalobject interest region based upon comparing the location coordinates(e.g., location data) associated with these objects, and the pluralityof location coordinates (e.g., array of location data) associated withthe environmental object.

As used herein, the term “environmental object” refers to any mobiledevice and/or located object as defined herein.

As used herein, the term “environmental object location database” refersto a structured data set or repository for storing location dataaccessible by the environmental pertinence server, where the locationdata is associated with various mobile devices and located objects(e.g., environmental objects).

As used herein, the term “digital content item database” refers to astructured data set or repository for storing digital content itemsaccessible by the environmental pertinence server, where the digitalcontent items are associated with and accessible by one or more softwareapplications.

As used herein, the term “permissions database” refers to a structureddata set or repository for storing permission data accessible by theenvironmental pertinence server, where the permission data is associatedwith user permissions and user permission rules as defined herein.

As used herein, the term “preliminary environmental pertinence digitalcontent item set” refers to a group of digital content items identifiedfrom a query, where the group of digital content items has beenfiltered, reduced, enhanced, or improved by comparison with locationdata associated with one or more environmental objects. In this regard,the user-permitted digital content item set may represent a subset ormodified version of the digital content items stored by the digitalcontent item database.

As used herein, the term “user-permitted environmental pertinencedigital content item set” refers to a group of digital content itemsidentified from a query, where the group of digital content items hasbeen filtered, reduced, enhanced, or improved using user permissions. Inthis regard, the user-permitted digital content item set may represent asubset or modified version of the preliminary environmental digitalcontent item set.

As used herein, the term “computer-readable medium” refers tonon-transitory storage hardware, non-transitory storage device ornon-transitory computer system memory that may be accessed by acontroller, a microcontroller, a computational system or a module of acomputational system to encode thereon computer-executable instructionsor software programs. A non-transitory “computer-readable medium” may beaccessed by a computational system or a module of a computational systemto retrieve and/or execute the computer-executable instructions orsoftware programs encoded on the medium. Exemplary non-transitorycomputer-readable media may include, but are not limited to, one or moretypes of hardware memory, non-transitory tangible media (for example,one or more magnetic storage disks, one or more optical disks, one ormore USB flash drives), computer system memory or random access memory(such as, DRAM, SRAM, EDO RAM), and the like.

As used herein, the term “module,” encompasses hardware, software and/orfirmware configured to perform one or more particular functions.

Overview

An apparatus (e.g., environmental pertinence server), method, andcomputer program product are provided for generating an environmentalpertinence interface. In one embodiment, two users, and their associatedmobile devices, may be located relative to one another such that aproximity threshold may be satisfied, such as when two users are meetingto work on a collaborative document. In such an embodiment, a mobiledevice associated with the first user may request an interface thatdisplays digital content items for which the first user and the seconduser both have valid user permissions to access. The environmentalpertinence server may query an environmental object location database toidentify all environmental objects (e.g., the second mobile deviceassociated with the second user) that satisfy a proximity threshold.Once the environmental pertinence server, via instructions executed byan environmental pertinence module, determines that the second mobiledevice satisfies the proximity threshold, the environmental pertinenceserver may query a digital content item database containing all digitalcontent items related to all software applications supported by theenvironmental pertinence server and its associated network.

The environmental pertinence server may identify a preliminaryenvironmental pertinence digital content item set from the digitalcontent item database (e.g., digital content items relating to thesoftware application utilized by the first mobile device and secondmobile device in the above example). The environmental pertinence servermay apply user permission rules to the preliminary environmentalpertinence digital content item set, where the user permission rules areassociated with the digital content items for which the first and secondmobile device, and their associated users, have a right to access. Theenvironmental pertinence server may generate an environmental pertinenceinterface containing the digital content items for which the first andsecond mobile device have access, and may transmit the environmentalpertinence interface to the first mobile device for display.

In another embodiment, the environmental objects identified by theenvironmental pertinence server when querying an environmental objectlocation database, may correspond to located objects with associatedobject profiles. By way of continued example, a first and second mobiledevice may be located within a conference room (e.g., a located object)where the location of the conference room is defined by a plurality oflocation data points. As above, the environmental pertinence server maycomplete the same process for generating an environmental pertinenceinterface now considering the location of the mobile devices with regardto the conference room.

In some further embodiments, the apparatus, method, and computer programproduct may utilize pertinence factors to rank all permitted softwareapplications and/or digital content items for use when generating anenvironmental pertinence interface. In some embodiments, the softwareapplications and/or digital content items may be ranked or displayed ina way that conveys their estimated importance to the user based oninformation stored to the network and to the user profile associatedwith the first mobile device, other mobile devices, and/or locatedobjects.

Exemplary System Architecture

With reference to FIG. 1, an example system 100 is illustrated with anenvironmental pertinence server 102 communicably connected with a firstmobile device 106, a second mobile device 108, and a located object 110via a network 104. The example system 100 may also include a digitalcontent item database 116, environmental object location database 114,and a permissions database 112 in communication with the environmentalpertinence server 102.

The environmental pertinence server 102 may include circuitry, networkedprocessors, or the like configured to perform some or all of theenvironmental pertinence server-based processes described herein, andmay be any suitable network environmental pertinence server and/or othertype of processing device. In some embodiments, the environmentalpertinence server 102 may function as a “cloud” with respect to thefirst mobile device 106. In that sense, the environmental pertinenceserver 102 may include several servers performing interconnected and/ordistributed functions. To avoid unnecessarily overcomplicating thedisclosure, the environmental pertinence server 102 is shown anddescribed herein as a single server.

The network 104 may include one or more wired and/or wirelesscommunication networks including, for example, a wired or wireless localarea network (LAN), personal area network (PAN), metropolitan areanetwork (MAN), wide area network (WAN), or the like, as well as anyhardware, software and/or firmware for implementing the one or morenetworks (e.g., network routers, switches, hubs, etc.). For example, thenetwork 104 may include a cellular telephone, mobile broadband, longterm evolution (LTE), GSM/EDGE, UMTS/HSPA, IEEE 802.11, IEEE 802.16,IEEE 802.20, Wi-Fi, dial-up, and/or WiMAX network. Furthermore, thenetwork 104 may include a public network, such as the Internet, aprivate network, such as an intranet, or combinations thereof, and mayutilize a variety of networking protocols now available or laterdeveloped including, but not limited to TCP/IP based networkingprotocols.

The first mobile device 106 may be associated with a user and/or userprofile. Additional mobile devices (i.e., second mobile device 108) maybe also be associated with a second user and/or second user profile.Although two mobile devices are shown, system 100 may include any numberof mobile devices that may be associated with various other users and/oruser profiles. First mobile device 106 and second mobile device 108 maybe cellular telephones (including smartphones and/or other types ofmobile telephones), laptops, tablets, electronic readers, e-bookdevices, media devices, wearables or any combination of the above.

The located object 110 may be also associated with an object profile.The located object 110 may be any object known by the system 100 wherethe system 100 knows the location of the located object 110 withoutactive communication by the located object 110 (i.e., a user defined orinputted location, a stored location). By way of example, a locatedobject 110 may be an office wherein a user has defined the location ofthe office and inputted the location coordinates into a memory (e.g.,environmental object location database 114) accessible by the system100. Although shown as a single located object 110, the system 100 mayinclude any number of located objects associated with various objectprofiles.

In some embodiments, the first mobile device 106 may be configured togenerate and/or provide an environmental pertinence interface to adisplay of the mobile device. The environmental pertinence interface maybe configured to access various digital content items associated withsoftware applications. The first mobile device 106 may also allow a userto input commands (such as selecting a particular digital content item)which may be conveyed to the environmental pertinence server 102 via thenetwork 104 as input data. Input data may be generated via one or moreinput devices including, without limitation, a touchscreen, amicrophone, a camera, and/or a motion sensor device (e.g., anaccelerometer, gyroscope, etc.).

The digital content item database 116 may be any suitable networkstorage device configured to store some or all of the informationdescribed herein. The digital content item database 116 may receive datafrom the environmental pertinence server 102 (e.g., via a memory 204and/or processor(s) 202), and may store this data. As such, the digitalcontent item database 116 may include, for example, one or more databasesystems, backend data servers, network databases, cloud storage devices,etc. To avoid unnecessarily overcomplicating the disclosure, the digitalcontent item database 116 is shown and described herein as a singledatabase.

The environmental object location database 114 may be any suitablenetwork storage device configured to store some or all of theinformation described herein. The environmental object location database114 may receive data from the environmental pertinence server 102 (e.g.,via a memory 204 and/or processor(s) 202), and may store this data. Assuch, the environmental object location database 114 may include, forexample, one or more database systems, backend data servers, networkdatabases, cloud storage devices, etc. To avoid unnecessarilyovercomplicating the disclosure, the environmental object locationdatabase 114 is shown and described herein as a single database.

The permissions database 112 may be any suitable network storage deviceconfigured to store some or all of the information described herein. Thepermissions database 112 may receive data from the environmentalpertinence server 102 (e.g., via a memory 204 and/or processor(s) 202),and may store this data. As such, the permissions database 112 mayinclude, for example, one or more database systems, backend dataservers, network databases, cloud storage devices, etc. To avoidunnecessarily overcomplicating the disclosure, the permissions database112 is shown and described herein as a single database.

FIG. 2 shows a schematic block diagram of an example circuitry 200, someor all of which may be included in the environmental pertinence server102, the first mobile device 106, or the second mobile device 108. Inaccordance with some example embodiments, circuitry 200 may includevarious means, such as one or more processors 202, memory(s) 204,communications modules 206, input/output modules 208, and environmentalpertinence module 210.

In some embodiments, such as when circuitry 200 is included in theenvironmental pertinence server 102 or the mobile device 106, theenvironmental pertinence module 210 may also or instead be included. Forexample, where the environmental pertinence module 210 is included withthe first mobile device 106, the module may be configured to facilitatethe functionality discussed herein regarding generating an environmentalpertinence interface. In another example, where environmental pertinencemodule 210 is included with environmental pertinence server 102, themodule may be configured to receive the data associated with the firstmobile device 106 and to process the associated user data in order togenerate an environmental pertinence interface.

The means of circuitry 200 as described herein may be embodied as, forexample, circuitry, hardware elements (e.g., a suitably programmedprocessor, combinational logic circuit, integrated circuit, or thelike), a computer program product comprising computer-readable programinstructions stored on a non-transitory computer-readable medium (e.g.,memory 204) that is executable by a suitably configured processingdevice (e.g., processor 202), or some combination thereof.

The processor 202 may, for example, be embodied as various meansincluding one or more microprocessors with accompanying digital signalprocessor(s), one or more processor(s) without an accompanying digitalsignal processor, one or more coprocessors, one or more multi-coreprocessors, one or more controllers, processing circuitry, one or morecomputers, various other processing elements including integratedcircuits such as, for example, an ASIC (application specific integratedcircuit) or FPGA (field programmable gate array), or some combinationthereof. Accordingly, although illustrated in FIG. 2 as a singleprocessor, in some embodiments, the processor 202 may comprise aplurality of processing means. The plurality of processing means may beembodied on a single computing device or may be distributed across aplurality of computing devices collectively configured to function asthe circuitry 200. The plurality of processing means may be in operativecommunication with each other and may be collectively configured toperform one or more functionalities of the circuitry 200 as describedherein. In an example embodiment, the processor 202 may be configured toexecute instructions stored in the memory 204 or otherwise accessible tothe processor 202. These instructions, when executed by the processor202, may cause the circuitry 200 to perform one or more of thefunctionalities described herein.

Whether configured by hardware, firmware/software methods, or by acombination thereof, the processor 202 may comprise an entity capable ofperforming operations according to embodiments discussed herein whileconfigured accordingly. Thus, for example, when the processor 202 isembodied as an ASIC, FPGA or the like, the processor 202 may comprisespecifically configured hardware for conducting one or more operationsdescribed herein. As another example, when the processor 202 may beembodied as an executor of instructions, such as may be stored in thememory 204, the instructions may specifically configure the processor202 to perform one or more algorithms, methods, or operations describedherein. For example, the processor 202 may be configured to executeoperating system applications, firmware applications, media playbackapplications, media editing applications, among others.

The memory 204 may comprise, for example, volatile memory, non-volatilememory, or some combination thereof. Although illustrated in FIG. 2 as asingle memory, the memory 204 may comprise a plurality of memorycomponents. The plurality of memory components may be embodied on asingle computing component or distributed across a plurality ofcomputing components. In various embodiments, the memory 204 maycomprise, for example, a hard disk, random access memory, cache memory,flash memory, a compact disc read only memory (CD-ROM), solid statememory, digital versatile disc read only memory (DVD-ROM), an opticaldisc, circuitry configured to store information, integrated circuitry,chemical/biological memory, paper, or some combination thereof. Thememory 204 may be configured to store information, data, applications,instructions, or the like for enabling the circuitry 200 to carry outvarious functions in accordance with example embodiments discussedherein. For example, in at least some embodiments, the memory 204 may beconfigured to buffer input data for processing by the processor 202.Additionally or alternatively, in at least some embodiments, the memory204 may be configured to store program instructions for execution by theprocessor 202 and/or data for processing by the processor 202. Thememory 204 may store information in the form of static and/or dynamicinformation. This stored information may be stored and/or used by thecircuitry 200 during the course of performing its functionalities.

The communications module 206 may be embodied as any component or meansembodied in circuitry, hardware, a computer program product comprisingcomputer readable program instructions stored on a computer readablemedium (e.g., memory 204) and executed by a processing device (e.g.,processor 202), or a combination thereof that is configured to receiveand/or transmit data from/to another device, such as, for example, asecond circuitry, component, server, module, or the like. In someembodiments, the communications module 206 (like other componentsdiscussed herein) can be at least partially embodied as or otherwisecontrolled by the processor 202. In this regard, the communicationsmodule 206 may be in communication with the processor 202, such as via abus. The communications module 206 may include, for example, an antenna,a transmitter, a receiver, a transceiver, network interface card and/orsupporting hardware and/or firmware/software for enablingcommunications. The communications module 206 may be configured toreceive and/or transmit any data that may be stored by memory 204 usingany protocol that may be used for communications. The communicationsmodule 206 may additionally and/or alternatively be in communicationwith the memory 204, the input/output module 208, and/or any othercomponent of the circuitry 200, such as via a bus. The communicationsmodule 206 may be configured to use one or more communications protocolssuch as, for example, short messaging service (SMS), Wi-Fi (e.g., a802.11 protocol, Bluetooth, etc.), radio frequency systems (e.g., 900MHz, 1.4 GHz, or 5.6 GHz communication systems), infrared, GSM, GSM plusEDGE, CDMA, quadband, and other cellular protocols, VOIP, or any othersuitable protocol.

The input/output module 208 may be in communication with the processor202 to receive an indication of an input and/or to provide an audible,visual, mechanical, or other output. In that sense, the input/outputmodule 208 may include means for performing analog-to-digital and/ordigital-to-analog data conversions. The input/output module 208 mayinclude support, for example, for a display, touchscreen, keyboard,button, click wheel, mouse, joystick, an image capturing device (e.g., acamera), motion sensor (e.g., accelerometer and/or gyroscope),microphone, audio recorder, speaker, biometric scanner, and/or otherinput/output mechanisms. In embodiments where the circuitry 200 may beimplemented as an environmental pertinence server 102, as shown in FIG.2, aspects of the input/output module 208 may be reduced as compared toembodiments where circuitry 200 may be implemented as an end-usermachine or other type of device designed for complex user interactions(i.e., first mobile device 106). In some embodiments (like othercomponents discussed herein), the input/output module 208 may even beeliminated from the circuitry 200. Alternatively, such as in embodimentswherein the circuitry 200 is embodied as an environmental pertinenceserver, at least some aspects of the input/output module 208 may beembodied on an apparatus used by a user that is in communication withthe circuitry 200. The input/output module 208 may be in communicationwith the memory 204, the communications module 206, or any othercomponent(s), such as via a bus. Although more than one input/outputmodule and/or other component can be included in the circuitry 200, onlyone is shown in FIG. 2 to avoid overcomplicating the disclosure (e.g.,like the other components discussed herein).

In some embodiments, the environmental pertinence module 210 may also orinstead be included and configured to perform the functionalitydiscussed herein related providing an environmental pertinenceinterface. In some embodiments, some or all of the functionality of theenvironmental pertinence module 210 may be performed by the processor202. In this regard, some or all of the example processes and algorithmsdiscussed herein can be performed by at least one processor 202 and/orenvironmental pertinence module 210. For example, non-transitorycomputer readable storage media can be configured to store firmware, oneor more application programs, and/or other software, which includeinstructions and other computer-readable program code portions that canbe executed to control processors of the components of the environmentalpertinence server 102 by the circuitry 200 to implement variousoperations, including the examples shown herein. As such, a series ofcomputer-readable program code portions may be embodied in one or morecomputer program products and can be used, with a device, environmentalpertinence server, database, and/or other programmable apparatus, toproduce the machine-implemented processes discussed herein.

Any such computer program instructions and/or other type of code may beloaded onto a computer, processor or other programmable apparatus'scircuitry to produce a machine, such that the computer, processor otherprogrammable circuitry that executes the code may be the means forimplementing various functions, including those described herein. Insome embodiments, one or more external systems (such as a remote cloudcomputing and/or data storage system) may also be leveraged to provideat least some of the functionality discussed herein.

As described above and as will be appreciated based on this disclosure,various embodiments may be implemented as methods, mediums, devices,environmental pertinence servers, databases, systems, and the like.Accordingly, embodiments may include various means comprised entirely ofhardware or any combination of software and hardware. Furthermore,embodiments may take the form of a computer program product on at leastone non-transitory computer-readable storage medium havingcomputer-readable program instructions (e.g., computer software)embodied in the storage medium. Any suitable computer-readable storagemedium may be utilized including non-transitory hard disks, CD/DVD-ROMs,flash memory, optical storage devices, quantum storage devices, chemicalstorage devices, biological storage devices, magnetic storage devices,etc.

Embodiments have been described above with reference to block diagramsof components, such as functional modules, system components andcircuitry. Below is a discussion of example process flowchartsdescribing functionality that may be implemented by one or morecomponents discussed above. Each block of the block diagrams and processflowcharts, and combinations of block diagrams and process flowcharts,respectively, can be implemented by various means including computerprogram instructions. These computer program instructions may be loadedonto a general purpose computer, special purpose computer, or otherprogrammable data processing apparatus, such as the processor 202, toproduce a machine, such that the computer program product includes theinstructions which execute on the computer or other programmable dataprocessing apparatus to create a means for implementing the functionsspecified in the flowchart block or block diagrams.

These computer program instructions may also be stored in acomputer-readable storage device (e.g., memory 204) that can direct acomputer or other programmable data processing apparatus to function ina particular manner, such that the instructions stored in thecomputer-readable storage device produce an article of manufactureincluding computer-readable instructions for implementing the functiondiscussed herein. The computer program instructions may also be loadedonto a computer or other programmable data processing apparatus to causea series of operational steps to be performed on the computer or otherprogrammable apparatus to produce a computer-implemented process suchthat the instructions that execute on the computer or other programmableapparatus provide steps for implementing the functions discussed herein.

Accordingly, blocks of the block diagrams and flowchart illustrationssupport combinations of means for performing the specified functions,combinations of steps for performing the specified functions and programinstruction means for performing the specified functions. It will alsobe understood that each block of the block diagrams and processflowcharts, and combinations of blocks in the block diagrams and processflowcharts, can be implemented by special purpose hardware-basedcomputer systems that perform the specified functions or steps, orcombinations of special purpose hardware and computer instructions.

Environmental Pertinence Interface

The method, apparatus (e.g., environmental pertinence server 102), andcomputer program product of an example embodiment will now be describedin conjunction with the operations illustrated in FIGS. 3-8. Withreference to FIG. 3, a flowchart is provided that illustrates a methodcompleted by the environmental pertinence server 102 for generating anenvironmental pertinence interface 300 for use with some embodimentsdescribed herein. The apparatus may receive an interface request from amobile device at Block 302 and may receive device location dataassociated with the mobile device at Block 304. The received devicelocation data may be generated by the mobile device using GlobalPositioning Satellite (“GPS”) technologies. Alternatively oradditionally, in some embodiments, location data may be generated bydetection of a LAN or access point (e.g., Bluetooth or Wi-Fitechnologies) or by reading a tag having a known location (e.g.,Radio-frequency identification (“RFID”), QR code, or barcodetechnologies) using a mobile device coupled reader or scanner.

The apparatus may further include identifying environmental objectswithin a proximity of the mobile device at Block 306 based on thereceived location data and may identify environmental pertinence digitalcontent items from a digital content database associated with theidentified environmental objects at Block 308. The apparatus maydetermine if the mobile device, or user profile(s) associated with themobile device, have permission to access the digital content items atBlock 310. Optionally, in some embodiments, if the mobile device and theenvironmental objects do not have permission to access the digitalcontent items, the apparatus may transmit a notification to the mobiledevice of incompatible permissions at Block 312. If the mobile deviceand environmental objects have permission to access the digital contentitems, the apparatus may display the environmental pertinence interfacecomprising permitted digital content items on the mobile device at Block314.

With continued reference to FIG. 3, the environmental pertinence server102 may include means, such as the processor 202, the communicationmodule(s) 206, the environmental pertinence module 210, or the like, forreceiving an interface request from a mobile device at Block 302 andreceiving device location data associated with the mobile device atBlock 304. The apparatus may, in some embodiments, receive an interfacerequest from a mobile device at Block 302 by manual request from a userassociated with the mobile device. In such an embodiment, the user mayinput a request (via text, voice, among others) at their mobile device,which may convey the interface request to the environmental pertinenceserver 102.

In alternate embodiments, the apparatus may receive an interface requestat Block 302 without input from a user. In such an embodiment, themobile device may determine that an interface is desired based upon thelocation of the mobile device. By way of example, a mobile device andassociated user may enter a conference room. The mobile device may berunning a software application that is configured to periodically updatethe user interface of the mobile device. The mobile device may befurther configured to frequently report device location data to theenvironmental pertinence server (e.g., periodically pushing locationdata determined based on the GPS, WiFi, Bluetooth, RFID, QR code, orbarcode technologies referenced above). Having received the devicelocation data from the mobile device, the environmental pertinenceserver may query the environmental object location database to identifya located object that is within a proximity threshold of the reportingmobile device. In this example, the environmental pertinence serveridentifies a conference room (i.e., a located object) as being proximatethe mobile device.

In some further alternative embodiments, the apparatus may frequentlyreceive an interface request at Block 302, without input from a user,anytime the mobile device is in communication with the apparatus. Insuch an embodiment, the apparatus (e.g., the environmental pertinenceserver) may determine that an interface is desired based upon the mobiledevice's connection to a network in communication with the apparatus. Byway of example, a mobile device and associated user may enter a building(e.g., the user's office building) and connect to an associated network(i.e., the mobile device may connect to the office's Wi-Fi). The mobiledevice may be running a software application that is configured toperiodically update the user interface. The environmental pertinenceserver may be further configured to frequently receive device locationdata from the mobile device while the mobile device is in communicationwith the environmental pertinence server. Having received the devicelocation data from the mobile device, the environmental pertinenceserver may frequently query the environmental object location databaseto identify located objects that are within a proximity threshold of thereporting mobile device. In this example, the environmental pertinenceserver identifies a conference room (i.e., a located object) as beingproximate the mobile device. This example further illustrates anembodiment where the environmental pertinence server frequently pushes(e.g., transmits data) an environmental pertinence interface to themobile device based upon the location (e.g., by analyzing location data)of the mobile device.

By way of an additional example, the environmental pertinence module 210may also analyze scheduling data (e.g., a user's calendar such as anOutlook® calendar, Google® calendar, or the like) in addition to, or inlieu of, location data received from the mobile device to determine alocation (i.e., device location data) associated with the mobile device.In some embodiments, the scheduling data may be received from the mobiledevice while, in other embodiments, the scheduling data may be retrievedor received from a remote server. The environmental pertinence module210 may use meeting time data and meeting location data extracted fromscheduling data to determine a likely location of the mobile device. Forexample, if a user of the mobile device is scheduled to participate in adesign review meeting in conference room Alpha of building Beta at 3:00PM PST, the environmental pertinence module 210 may determine thatconference room Alpha of building Beta (or stored location coordinatesassociated with the same) is the likely location of the mobile deviceassociated with such user at 3:07 PM PST. This likely location may beconfirmed through location data received from the mobile device such asthrough received GPS coordinates or indications of WiFi access pointdetection associated with building Beta. In still other embodiments,this likely location may be confirmed by prompting the user of thedevice to input a location confirmation (e.g., a notification requestingthat the user confirm they are in conference room Alpha of buildingBeta).

With respect to receiving device location data at Block 304, in someembodiments, the mobile device (e.g., first mobile device 106 in FIG. 1)may transmit location data associated with the mobile device to theenvironmental pertinence server 102 at various intervals. In otherembodiments, the mobile device may not transmit its location to theenvironmental pertinence server at various intervals, and may requirethat the environmental pertinence server 102 request the location of themobile device. In some still further embodiments, the environmentalpertinence server 102 and/or environmental pertinence module 210, mayreceive device location data related to a mobile device due to thedocking or network access of the mobile device at a location (e.g., whena phone is docked at a computer or network access is obtained and thedevice location data is transmitted via a LAN).

Once the device location data associated with the mobile device has beenreceived at Block 304, the environmental pertinence server 102 mayinclude means, such as the processor 202, the communication modules(s),the environmental pertinence module 210, or the like, for identifyingenvironmental pertinence digital content items from a digital contentitem database at Block 308. The apparatus may first identifyenvironmental objects within a proximity threshold of the mobile deviceat Block 306 based on comparing stored environmental object locationinformation to the received device location data. The identifiedenvironmental objects of Block 306 may be used to identify environmentalpertinence digital content items from a digital content item database atBlock 308. The apparatus may access a digital content item database(e.g., database 116) that comprises all possible digital content itemsknown by the apparatus or stored by the database 116. The apparatus maythen determine a portion of all possible digital content itemsassociated with the identified environmental objects of Block 306. Thisportion may, in some embodiments, be defined as a preliminaryenvironmental pertinence digital content item set. By way of example,when the environmental objects are a second mobile device and aconference room, a preliminary environmental pertinence digital contentitem set may be all digital content items associated with the mobiledevice, the second mobile device, and the conference room.

The apparatus may also determine if appropriate user permissions existto access the digital content items found in the preliminaryenvironmental pertinence digital content item set at Block 310. Thesepermissions may be stored on the mobile device in some embodiments, andmay also be stored by the environmental pertinence server 102 or inpermissions database 112. The apparatus may further determine whichdigital content items the mobile device (e.g., a user profile associatedwith the mobile device) has permission to access, and may group theseitems into a further portion of the digital content item set. Thisfurther portion may, in some embodiments, be defined as a user-permittedenvironmental pertinence digital content item set. In some embodiments,where an identified environmental object is a second mobile deviceassociated with a second user profile (e.g., or any number of additionalmobile devices), the apparatus may also determine if appropriate userpermissions exist for the second mobile device to access the digitalcontent items found in the preliminary environmental pertinence digitalcontent item set. Such an embodiment is discussed more fully below withreference to FIG. 4.

Once the user-permitted environmental pertinence digital content itemset has been defined, the environmental pertinence server 102 mayinclude means, such as the processor 202, the input/output module 208,the communications module(s) 206, the environmental pertinence module210, or the like, for transmitting the user permitted environmentalpertinence digital content item set as part of an environmentalpertinence interface for display to a mobile device at Block 314.Although described as transmitted to a mobile device for display atBlock 314, the present disclosure contemplates that any device or objectcapable of receiving digital content may be utilized to display theenvironmental pertinence interface such as a television, monitor,projector, etc. In some embodiments, the apparatus may, upon determiningthat the mobile device does not have a valid permission for any digitalcontent item, transmit a notification to the mobile device ofincompatible permissions at Block 312. However, in some embodiments,such as when no manual user request has been made for an interface asdiscussed above, the apparatus may not transmit a notification to themobile device of incompatible permissions, and may not notify a userassociated with the mobile device that the method has occurred. By wayof example, the method performed by the apparatus may complete withoutdetermining an environmental pertinence interface and, for the sake ofvisibility to the user, may continue as if the method never occurred.

With reference to FIG. 4, a flowchart is provided that illustrates amore particular method for generating an environmental pertinenceinterface 400 for use with some embodiments described herein, with eachstep of the method described more fully in the paragraphs following. Theapparatus (e.g., environmental pertinence server) may include receivingan interface request from a mobile device at Block 402, and may receivedevice location data associated with the mobile device at Block 404. Theapparatus may query an environmental object location database at Block406 and may identify environmental objects from the environmental objectlocation database at Block 408. The apparatus may determine if thelocation data associated with the environmental objects and mobiledevice satisfy a proximity threshold at Block 410. If the environmentalobjects satisfy the proximity threshold, the apparatus may query adigital content item database at Block 412. The apparatus may furtheridentify a preliminary environmental pertinence digital content item setfrom the digital content item database at Block 414. The apparatus mayapply user permission rules to the environmental pertinence digitalcontent item set at Block 416. The apparatus may determine if userpermissions are present for the digital content items at Block 418, and,if so, may generate a user-permitted environmental pertinence digitalcontent set at Block 422. In some embodiments, if user permissions arenot present, the apparatus may transmit a notification to the mobiledevice of incompatible permissions at Block 420. The apparatus maygenerate an environmental pertinence interface based upon the permitteddigital content set at Block 424, and may transmit the environmentalpertinence interface to the mobile device at Block 426.

With continued reference to FIG. 4, following receiving device locationdata associated with a mobile device at Block 404, the apparatus mayquery an environmental object location database (e.g., database 114),and may identify environmental objects from the environmental objectlocation database at Block 408. By way of example, these environmentalobjects may include additional mobile devices (e.g., second mobiledevice 108 in FIG. 1) or located object(s) 110. As defined above, thesemobile devices may be cellphones, tablets, RFID tagged objects, or anydevice capable of transmitting its location to the environmentalpertinence server 102. Located objects, also defined above, may includeobjects such as desks, offices, doorways, conference rooms, sharedspaces, work desks, etc., where the location of the object may be knownby the environmental pertinence server 102 without communication withthe located object.

The apparatus may determine if these identified environmental objectssatisfy a proximity threshold at Block 410. The proximity threshold maybe calculated by comparing the device location data corresponding with amobile device received at Block 404 with location data associated withan environmental object. The location data associated with theenvironmental object may be in some embodiments stored as part of theenvironmental object location database 114, or may be received uponrequest by the environmental pertinence server 102. The apparatus maycompare these location data sets to determine if the proximity thresholdhas been satisfied. By way of example, the environmental object may be asecond mobile device with second device location data indicating to theenvironmental pertinence server that the second mobile device satisfiesthe proximity threshold (i.e., is close enough to the mobile device).

As will be appreciated in light of the present disclosure, location datacorresponding to a mobile device or located object may be received bythe apparatus from a variety of sources. By way of example, theenvironmental pertinence server may receive device location datacorresponding to a user and associated mobile device via a Wi-Fi accesspoint to which the mobile device is connected, location data associatedwith a user's access badge, and the like. In such an example, theenvironmental pertinence server may determine the reliability of eachsource of location data. Some sources of location data may provide amore accurate representation of the location of the user due to theaccuracy inherent to these sources. The environmental pertinence servermay receive location data from a variety of sources, apply a reliabilityscore to each source, and determine the location of the user based uponthe source with the largest reliability score (e.g., the most reliablesource). In some embodiments, the reliability score may be determined bya user-inputted or system administrator defined value. For example, theapparatus may be configured by an administrator to associate locationdata received directly from a mobile device as having the highestreliability score. In such an embodiment, the apparatus would default toutilizing the mobile device location data in further steps of the methoddue to the mobile device being assigned the highest reliability score.

In some embodiments, the apparatus may employ a user confirmationnotification. Upon receiving location data from multiple sources whichmay, in some situations, indicate conflicting locations, the apparatusmay transmit a notification to the mobile device requesting confirmationof the location of the mobile device. By way of example, theenvironmental pertinence server may receive a plurality of devicelocation data points associated with a mobile device, and may transmit anotification to the mobile device, to which a user may confirm thelocation of the mobile device (e.g., Are you in the conference room?).As discussed below, the environmental pertinence server may employmachine learning or a trainable model such that, over time, theenvironmental pertinence server, through receiving a plurality of userconfirmations, may improve the determination of location of mobiledevices, environmental objects, and the like.

In some embodiments, the environmental pertinence server may determinethe proximity threshold by analyzing device location data associatedwith multiple mobile devices located in a defined area accessing acommon digital content item. By way of example, eight (8) mobile devicesmay be located in a conference room accessing a shared workspace. Theenvironmental pertinence server, via instructions executed by theenvironmental pertinence module, may determine that a proximitythreshold should be adjusted to reflect the device location data ofthese eight (8) mobile devices.

In some further embodiments, the environmental pertinence server mayemploy machine learning, or equivalent technology, to improve futuredeterminations of the proximity threshold. In some examples, theenvironmental pertinence server may generally provide a trained modelthat is given a set of input features, and is configured to provide anoutput of a score (e.g., reliability score), a recommendation, or thelike. In some embodiments, a trained model can be generated usingsupervised learning or unsupervised learning. In some examples, suchlearning can occur offline, in a system startup phase, or could occur inreal-time or near real-time during performing the methods shown in thedescribed figures (e.g., determining location). The trained model maycomprise the results of clustering algorithms, classifiers, neuralnetworks, ensemble of trees in that the trained model is configured orotherwise trained to map an input value or input features to one of aset of predefined output scores or recommendations, and modify or adaptthe mapping in response to historical data returned from previousiterations (e.g., determining the location of one or more environmentalobjects).

Alternatively or additionally, the trained model may be trained toextract one or more features from historical data using patternrecognition, based on unsupervised learning, supervised learning,semi-supervised learning, reinforcement learning, association ruleslearning, Bayesian learning, solving for probabilistic graphical models,among other computational intelligence algorithms that may use aninteractive process to extract patterns from data. In some examples, thehistorical data may comprise data that has been generated using userinput, crowd based input, or the like (e.g., user confirmations).

In some examples, the environmental pertinence server may be configuredto apply a trained model to one or more inputs to identify a set ofreliability scores. For example, if the input feature was devicelocation data from a mobile device, the environmental pertinence servermay apply the location date to the trained model to determine whetherthe device location data is accurate. In some examples, the trainedmodel would output a suggested reliability score based on other mobiledevices that had the same device location data.

Upon satisfying the proximity threshold at Block 410, the apparatusquery a digital content item database at Block 412, and may identify apreliminary environmental pertinence digital item content set at Block414. The apparatus (e.g., environmental pertinence server) may be incommunication with a digital content item database (e.g., digitalcontent item database 116 in FIG. 1) such that the apparatus maytransmit a request to the digital content item database to retrievedigital content items associated with the various environmental objectsand the mobile device requesting an interface. The digital content itemdatabase 116 may contain all digital content items associated withsoftware applications known by the system 100. The apparatus mayassociate digital content items with the environmental identifiedobjects in order to create a preliminary environmental pertinencedigital content item set. By way of example, the second mobile device ofthe system (e.g., an environmental object) may have voice chatapplications and collaborative workspaces (e.g., digital content items)associated with the device. The method may identify these digitalcontent items as pertinent due to their additional association with thefirst mobile device.

The apparatus may then apply user permission rules to the pertinencedigital content item set at Block 416 and determine if user permissionsexist for the digital content items at Block 418. The apparatus (e.g.,environmental pertinence server) may be in communication with apermissions database (e.g., permissions database 112 in FIG. 1) suchthat the apparatus may transmit a request to the permissions database toretrieve user permissions associated with various environmental objectsand the mobile device requesting an interface. These user permissionrules may be associated with each mobile device or environmental object,and may define a unique user's/object's right to access a digitalcontent item. By way of example, a first mobile device associated with afirst user profile may have permission to access a collaborativeworkspace (e.g., digital content item), while a second mobile device(e.g., environmental object) associated with a second user profile maynot have permission to access the same collaborative workspace. Theapparatus may, based upon the user permissions associated with eachmobile device and/or environmental object, determine digital contentitems for which each mobile device and environmental object possessesvalid user permissions to access the digital content items.

Upon determining that user permissions exist to access the digitalcontent items, the apparatus may generate a user-permitted environmentalpertinence digital content set at Block 422. This user-permittedenvironmental pertinence digital content set may include digital contentitems associated with an identified environmental object, and onlyinclude those digital content items for which valid permissions exist(i.e., digital content items of the preliminary digital content item setfor which valid user permissions do not exist are filtered out). Theapparatus may then generate an environmental pertinence interface basedupon the user-permitted environmental pertinence digital content set atBlock 424. This environmental pertinence interface may, in someembodiments, be transmitted to a mobile device at Block 426. In such anembodiment, the mobile device may display the environmental pertinenceinterface. In some embodiments where user permission rules are notsatisfied at Block 418, the apparatus may transmit a notification to themobile device of incompatible permissions at Block 420.

With reference to FIG. 5-6, flowcharts are provided that illustrate amethod for generating an environmental pertinence interface where theidentified environmental object is a second mobile device and where theidentified environmental object is a located object, respectively, witheach step of the method described more fully in the paragraphsfollowing. The apparatus may include receiving an interface request froma mobile device at Block 502, and may receive device location dataassociated with the mobile device at Block 504. The apparatus may queryan environmental object location database 114 at Block 406 and mayidentify a second mobile device from the environmental object locationdatabase at Block 508. The apparatus may receive device location dataassociated with the second mobile device at Block 510. The apparatus maydetermine if the location data of the second mobile device compared tothe location data of the first mobile device satisfies a proximitythreshold at Block 512. If the second mobile device satisfies theproximity threshold, the apparatus may query a digital content itemdatabase at Block 514. The apparatus may further identify a preliminaryenvironmental pertinence digital content item set from the digitalcontent item database at Block 516. The apparatus may apply userpermission rules to the pertinence digital content item set at Block518. The apparatus may determine if user permissions are present for thedigital content items at Block 520 and, if so, may generate auser-permitted environmental pertinence digital content set at Block526. In some embodiments, if user permissions are not present, theapparatus may transmit a notification to the mobile device and thesecond mobile device of incompatible permissions at Blocks 522, 524. Theapparatus may generate an environmental pertinence interface based uponthe user-permitted digital content set at Block 528 and may transmit theenvironmental pertinence interface to the mobile device and secondmobile device at Block 530, 532.

With continued reference to FIG. 5, the figure illustrates a particularembodiment of the apparatus described in FIG. 4, in which theenvironmental object identified at Block 508 is associated with a secondmobile device. Notably, the apparatus may acquire second device locationdata associated with the second mobile device at Block 510 using thelocation determination technologies referenced above in connection withFIG. 3. Similar to the first mobile device illustrated in FIGS. 3-5, thesecond mobile device may transmit the location of the second mobiledevice to the environmental pertinence server (e.g., environmentalpertinence server 102 in FIGS. 1-2) at various intervals. In otherembodiments, the second mobile device may not transmit its location tothe environmental pertinence server at various intervals, and mayrequire that the environmental pertinence server request the location ofthe second mobile device. Additionally, the apparatus may apply userpermissions associated with not only the first mobile device, but alsouser permissions associated with the second mobile device at Block 520.As discussed above, in an example embodiment, both mobile devices, eachassociated with user profiles, may also be associated with unique userpermissions. The apparatus may apply both sets of user permissions ingenerating a user-permitted environmental pertinence digital content setat Block 526. Additionally, the apparatus may transmit notifications ofincompatible permissions as well as transmitting the environmentalpertinence interface to one or both of the first mobile device and thesecond mobile device.

FIG. 6 illustrates a particular embodiment of the apparatus described inFIG. 4 in which the environmental object identified at Block 608 isassociated with a located object. Notably, the apparatus may acquireobject location data associated with the located object at Block 610.The apparatus may receive object location data associated with thelocated object by querying an environmental object location database 114storing located object data. In some embodiments, the located object maybe associated with an object profile. An object profile may store datarelated to the located object.

By way of example, a located object may be a HVAC unit, and the objectprofile associated with the HVAC unit may include data relating to thepower consumed by the unit, the average temperature air outputted by theunit, and the time the unit has remained running, various settings,among others. Although described in conjunction with an HVAC unit, thepresent disclosure contemplates that a located object can be any objectwithout limitation, and the object profile may gather and store anyinformation without limitation.

By way of an additional example, a located object may be a conferenceroom, and the object profile associated with the conference room mayinclude the available seating of the conference room, the technologicalcapabilities of the conference room, the digital content items availablefor use in the conference room, and the like.

Additionally, the apparatus may apply user permissions associated thefirst mobile device with respect to the located object at Block 620. Byway of continued example referencing the HVAC unit described above, themobile device and associated user profile may have permission to accessthe HVAC object profile. Specifically, the user profile associated withthe mobile device may relate to a maintenance position where the HVACobject profile contains pertinence data relating to needs of themaintenance position.

With reference to FIG. 7, the figure illustrates a particular embodimentof the apparatus of FIG. 4, in which the apparatus (e.g., environmentalpertinence server) identifies environmental objects relating to alocated object as well as a second mobile device at Blocks 708, 710.Notably, the apparatus may acquire object location data associated withthe located object at Block 712 and with the second mobile device atBlock 714. Similar to the embodiments described by the apparatus foundin FIGS. 5-6, the apparatus may apply user permission rules to thepertinence digital content item set relating to the first mobile device,the second mobile device, and/or the located object at Blocks 720, 722.By way of example, a first mobile device associated with a first userprofile, a second mobile device associated with a second user profile,and a located object associated with an object profile may be determinedby the apparatus to satisfy the proximity threshold. Specifically, thefirst mobile device and the second mobile device may be located in aroom with an HVAC unit (e.g., located object). In such an embodiment, ifthe first mobile device and second mobile device have the requiredpermissions, one or more of the devices may be provided an environmentalpertinence interface containing data relating to the HVAC unit.

Although described in reference to only a second mobile device and asingle located object, the present disclosure contemplates that any ofthe example apparatuses shown in FIGS. 3-8 may accommodate any number ofmobile devices and/or located objects and further apply any number ofuser permissions related to each of these mobile devices.

With reference to FIG. 8, a flowchart is provided that illustrates anapparatus for generating a ranked environmental pertinence interface 800for use with some embodiments described herein. In any of theapparatuses described in FIGS. 3-7, upon generating a user-permittedenvironmental pertinence digital content set (e.g., at Block 728), theapparatus may rank the user-permitted environmental pertinence digitalcontent items. The apparatus may generate a user-permitted environmentalpertinence digital content set at Block 802 and may identify one or morepertinence factors at Block 804. The apparatus may further rank theenvironmental pertinence digital content set according to the pertinencefactors at Block 806. Upon ranking the digital content set, theapparatus may generate a ranked environmental pertinence interface atBlock 808 and may transmit the ranked environmental pertinence interfaceto a mobile device for display at Block 810.

With continued reference to FIG. 8, the apparatus may identify one ormore pertinence factors and may rank the digital content items basedupon these pertinence factors at Blocks 804, 806. In some embodiments,the pertinence factors may define one of access time data, modificationdata, digital content size data, user exclusivity data, relationshipdata, authorship data, mouse over data, or key word data. In someembodiments, access time data may be stored by the environmentalpertinence server (via memory 204 or the like), and may comprise datarelating to the time when the digital content item has been accessed. Byway of example, when the digital content item corresponds to a sharedworkspace, access time data may correspond to the time(s) in which auser associated mobile device or profile has accessed the sharedworkspace. In some embodiments, modification data may also be stored bythe environmental pertinence server (via memory 204 or the like), andmay comprise data relating to the time and extent of modifications madeto the digital content item. By way of example, when the digital contentitem corresponds to a shared workspace, modification data may correspondto the time and extent of additions/deletions made to the workspace by auser associated mobile device or user profile.

In some embodiments, digital content size data may also be stored by theenvironmental pertinence server (via memory 204 or the like), and maycomprise data relating to the size of the digital content item. By wayof example, when the digital content item corresponds to a sharedworkspace, digital content size data may correspond to a bit size ormemory space occupied by the workspace.

In some other embodiments, exclusivity data may also be stored by theenvironmental pertinence server (via memory 204 or the like), and maycomprise data relating to the amount and/or classification of userprofiles or user associated mobile devices capable of accessing thedigital content item. By way of example, when the digital content itemcorresponds to a shared workspace, exclusivity data may relate to aworkspace that is only accessible by a select number of user profileswho possess an executive position (e.g., Chief Executive Officer (CEO),Chief Financial Officer (CFO), or the like). In such an example, theexclusivity data may be used to rank the digital content item higherthan other digital content items which may be accessible by a larger setof user profiles. Said another way, the digital content items which aremore exclusive (e.g., accessible by a smaller set of user profiles) maybe ranked higher than other digital content items which are lessexclusive (e.g., accessible by a larger set of user profiles). In somefurther embodiments, key word data may also be stored by theenvironmental pertinence server (via memory 204 or the like) and maycomprise data relating to flagged or tagged words located in the digitalcontent item. By way of example, when the digital content itemcorresponds to a shared workspace, key word data may identify wordsrelating to the user profile or user associated mobile device (e.g., theword maintenance may be flagged for a user profile associated with amaintenance position).

In some embodiments, relationship data, authorship data, and mouse overdata may also be stored by the environmental pertinence server (viamemory 204 or the like). Relationship data may relate to therelationship between two user profiles associated with two mobiledevices. In some embodiments, the apparatus may be configured todetermine the relationship between two or more parties and rank ordisplay digital content items accordingly. By way of example, when therelationship data from the user profiles associated with two mobiledevices indicates that the two users are unfamiliar with one another(e.g., by reviewing location data associated with the user, lack ofprior calendared meetings between the users, and the like), theinterface may display digital content items corresponding to each user'sidentity data (e.g., title and position within a company). In thealternative, when the relationship data from the user profilesassociated with two mobile devices indicates that the two users arefamiliar with one another, the interface may not display identity dataassociated with the users.

Authorship data may also be stored by the environmental pertinenceserver (via memory 204 or the like), and may comprise data relating toidentifying the user who created the digital content item. By way ofexample, when the digital content item corresponds to a sharedworkspace, authorship data may determine that a mobile device andassociated user profile created the digital content item and may rankthis digital content item higher than other digital content items notauthored by the user profile. In some further embodiments, mouse overdata may also be stored by the environmental pertinence server (viamemory 204 or the like) and may comprise data relating the amount oftimes an input device (e.g., mouse, trackpad, and the like) has passedover or selected a digital content item.

In FIG. 8, digital content items may be ranked according to thesepertinence factors at Block 806. By way of a particular example,user-permitted digital content items corresponding to shared workspaces,video chat services, stored word processing documents, and service deskrequests may be found in the user-permitted environmental digitalcontent set. The apparatus 800 may determine that the access data andmodification data relating to a particular shared workspace indicatesthat this digital content item is most pertinent. The apparatus may thenorder the digital content items in the environmental pertinenceinterface such that the shared workspace is listed first or mostprominently, and the environmental pertinence interface now defines aranked environmental pertinence interface at Block 808.

As discussed in combination with any of the above embodimentsillustrated in FIGS. 3-8, an environmental pertinence interface may begenerated by an environmental pertinence server, and more specifically,by an environmental pertinence module. With reference to FIG. 9, anexample software interface 900 is shown containing an environmentalpertinence interface 902. As shown in FIG. 9, the software interface 900presents various digital content items 904 in an accessible list as theenvironmental pertinence interface 902. As discussed above withreference to FIG. 8, the digital content items 904 may be rankedaccording to the method of apparatus 800 and presented as a rankedenvironmental pertinence interface.

In some embodiments, the environmental pertinence interface generated bythe environmental pertinence module housed in the environmentalpertinence server may indicate the location or presence of a mobiledevice associated with a user profile. With reference to FIG. 10, apresence interface 1000 is illustrated wherein the location status 1002and 1004 are indicated by the presence interface 1000. The presenceinterface 1000 and location status 1002 and 1004 may also be utilized inany of the environmental pertinence interfaces generated by theapparatus found in FIGS. 3-8, described above.

It will be understood that each block of the flowchart, and combinationsof blocks in the flowchart, may be implemented by various means, such ashardware, firmware, processor, circuitry, and/or other devicesassociated with execution of software including one or more computerprogram instructions. For example, one or more of the proceduresdescribed above may be embodied by computer program instructions. Inthis regard, the computer program instructions which embody theprocedures described above may be stored by a memory 204 of anenvironmental pertinence server 102 employing an embodiment of thepresent invention and executed by a processor 202 of the apparatus. Aswill be appreciated, any such computer program instructions may beloaded onto a computer or other programmable apparatus (e.g., hardware)to produce a machine, such that the resulting computer or otherprogrammable apparatus implements the functions specified in theflowchart blocks. These computer program instructions may also be storedin a computer-readable memory that may direct a computer or otherprogrammable apparatus to function in a particular manner, such that theinstructions stored in the computer-readable memory produce an articleof manufacture the execution of which implements the function specifiedin the flowchart blocks. The computer program instructions may also beloaded onto a computer or other programmable apparatus to cause a seriesof operations to be performed on the computer or other programmableapparatus to produce a computer-implemented process such that theinstructions which execute on the computer or other programmableapparatus provide operations for implementing the functions specified inthe flowchart blocks.

Accordingly, blocks of the flowchart support combinations of means forperforming the specified functions and combinations of operations forperforming the specified functions for performing the specifiedfunctions. It will also be understood that one or more blocks of theflowchart, and combinations of blocks in the flowchart, can beimplemented by special purpose hardware-based computer systems whichperform the specified functions, or combinations of special purposehardware and computer instructions.

In some embodiments, certain ones of the operations above may bemodified or further amplified. Furthermore, in some embodiments,additional optional operations may be included. Modifications,additions, or amplifications to the operations above may be performed inany order and in any combination.

Many modifications and other embodiments of the inventions set forthherein will come to mind to one skilled in the art to which theseinventions pertain having the benefit of the teachings presented in theforegoing descriptions and the associated drawings. Therefore, it is tobe understood that the inventions are not to be limited to the specificembodiments disclosed and that modifications and other embodiments areintended to be included within the scope of the appended claims.Moreover, although the foregoing descriptions and the associateddrawings describe example embodiments in the context of certain examplecombinations of elements and/or functions, it should be appreciated thatdifferent combinations of elements and/or functions may be provided byalternative embodiments without departing from the scope of the appendedclaims. In this regard, for example, different combinations of elementsand/or functions than those explicitly described above are alsocontemplated as may be set forth in some of the appended claims.Although specific terms are employed herein, they are used in a genericand descriptive sense only and not for purposes of limitation.

What is claimed is:
 1. An apparatus for generating an environmentalpertinence interface, the apparatus comprising at least a processor, anda memory associated with the processor having computer codedinstructions therein, the apparatus comprising: an environmentalpertinence server coupled with the processor, the environmentalpertinence server configured to: receive an interface request from amobile device associated with a user profile; receive device locationdata associated with the mobile device; query an environmental objectlocation database to identify environmental objects that satisfy aproximity threshold based on the device location data; for each instancein which the proximity threshold is satisfied, query a digital contentitem database associated with a plurality of software applications toidentify a preliminary environmental pertinence digital content itemset; apply user permissions rules to the preliminary environmentalpertinence digital content item set to generate a user-permittedenvironmental pertinence digital content item set; generate theenvironmental pertinence interface based on each user-permittedenvironmental pertinence digital content item set; and transmit theenvironmental pertinence interface to the mobile device.
 2. Theapparatus according to claim 1, wherein the environmental objectlocation database comprises second device location data of a secondmobile device associated with a second user profile, and theenvironmental pertinence server is configured to compare the devicelocation data to the second device location data to identify if thesecond mobile device is one of the environmental objects that satisfythe proximity threshold.
 3. The apparatus according to claim 1, whereinthe environmental object location database comprises object locationdata associated with a located object, and the environmental pertinenceserver is configured to compare the device location data to the objectlocation data to identify if the located object associated with theobject location data is one of the environmental objects that satisfythe proximity threshold.
 4. The apparatus according to claim 3, whereinthe located object is associated with an object profile.
 5. Theapparatus according to claim 1, wherein the environmental objectlocation database comprises second device location data of a secondmobile device associated with a second user profile and object locationdata associated with a located object, and the environmental pertinenceserver is configured to compare the device location data to the seconddevice location data and the object location data, respectively, toidentify if one or more of the second mobile device and the locatedobject are environmental objects that satisfy the proximity threshold.6. The apparatus according to claim 1, wherein the environmentalpertinence server is further configured to rank the user-permittedenvironmental pertinence digital content item set according to one ormore pertinence factors, identify digital content items that satisfy apertinence threshold, and generate the environmental pertinenceinterface.
 7. The apparatus according to claim 6, wherein the one ormore pertinence factors further comprise at least one of access timedata, modification data, digital content size data, user exclusivitydata, relationship data, authorship data, mouse over data, or key worddata.
 8. The apparatus according to claim 1, wherein the device locationdata associated with the mobile device is determined via analyzingscheduling data received from the mobile device.
 9. A method forpresenting an environmental pertinence interface via an environmentalpertinence server coupled with a processor, the method comprising:receiving an interface request from a mobile device associated with auser profile; receiving device location data associated with the mobiledevice; querying an environmental object location database to identifyenvironmental objects that satisfy a proximity threshold based on thedevice location data; for each instance in which the proximity thresholdis satisfied, querying a digital content item database associated with aplurality of software applications to identify a preliminaryenvironmental pertinence digital content item set; applying userpermissions rules to the preliminary environmental pertinence digitalcontent item set to generate a user-permitted environmental pertinencedigital content item set; generating the environmental pertinenceinterface based on each user-permitted environmental pertinence digitalcontent item set; and transmitting the environmental pertinenceinterface to the mobile device.
 10. The method according to claim 9,wherein the environmental object location database comprises seconddevice location data of a second mobile device associated with a seconduser profile, and the method further comprises comparing the devicelocation data to the second device location data and identifying if thesecond mobile device is one of the environmental objects that satisfythe proximity threshold.
 11. The method according to claim 9, whereinthe environmental object location database comprises object locationdata associated with a located object, and the method further comprisescomparing the device location data to the object location data andidentifying if the located object associated with the object locationdata is one of the environmental objects that satisfy the proximitythreshold.
 12. The method according to claim 11, wherein the locatedobject is associated with an object profile.
 13. The method according toclaim 9, wherein the environmental object location database comprisessecond device location data of a second mobile device associated with asecond user profile and object location data associated with a locatedobject, and the method further comprises comparing the device locationdata to the second device location data and the object location data,respectively, and identifying if one or more of the second mobile deviceand the located object are environmental objects that satisfy theproximity threshold.
 14. The method according to claim 13, wherein themethod further comprises ranking the user-permitted environmentalpertinence digital content item set according to one or more pertinencefactors, identifying digital content items that satisfy a pertinencethreshold, and generating the environmental pertinence interface. 15.The method according to claim 14, wherein the one or more pertinencefactors further comprise at least one of access time data, modificationdata, digital content size data, user exclusivity data, relationshipdata, authorship data, mouse over data, or key word data.
 16. The methodaccording to claim 9, wherein the device location data associated withthe mobile device is determined via analyzing scheduling data receivedfrom the mobile device.
 17. A computer program product comprising atleast one non-transitory computer-readable storage medium havingcomputer-executable program code portions stored therein, the computerexecutable program code portions comprising program code instructionsfor: receiving, via an environmental pertinence interface coupled with aprocessor, an interface request from a mobile device associated with auser profile; receiving, via an environmental pertinence interfacecoupled with a processor, device location data associated with themobile device; querying, via an environmental pertinence interfacecoupled with a processor, an environmental object location database toidentify environmental objects that satisfy a proximity threshold basedon the device location data; for each instance in which the proximitythreshold is satisfied, querying, via an environmental pertinenceinterface coupled with a processor, a digital content item databaseassociated with a plurality of software applications to identify apreliminary environmental pertinence digital content item set; applying,via an environmental pertinence interface coupled with a processor, userpermissions rules to the preliminary environmental pertinence digitalcontent item set to generate a user-permitted environmental pertinencedigital content item set; generating, via an environmental pertinenceinterface coupled with a processor, the environmental pertinenceinterface based on each user-permitted environmental pertinence digitalcontent item set; and transmitting, via an environmental pertinenceinterface coupled with a processor, the environmental pertinenceinterface to the mobile device.
 18. The computer program productaccording to claim 17, wherein the environmental object locationdatabase comprises second device location data of a second mobile deviceassociated with a second user profile, and the program code instructionsfurther comprise instructions for comparing the device location data tothe second device location data and identifying if the second mobiledevice is one of the environmental objects that satisfy the proximitythreshold.
 19. The computer program product according to claim 17,wherein the environmental object location database comprises objectlocation data associated with a located object, and the program codeinstructions further comprise instructions for comparing the devicelocation data to the object location data and identifying if the locatedobject associated with the object location data is one of theenvironmental objects that satisfy the proximity threshold.
 20. Thecomputer program product according to claim 19, wherein the locatedobject is associated with an object profile.
 21. The computer programproduct according to claim 17, wherein the environmental object locationdatabase comprises second device location data of a second mobile deviceassociated with a second user profile and object location dataassociated with a located object, and the program code instructionsfurther comprise instructions for comparing the device location data tothe second device location data and the object location data,respectively, and identifying if one or more of the second mobile deviceand the located object are environmental objects that satisfy theproximity threshold.
 22. The computer program product according to claim21, wherein the program code instructions further comprise instructionsfor ranking the user-permitted environmental pertinence digital contentitem set according to one or more pertinence factors, identifyingdigital content items that satisfy a pertinence threshold, andgenerating the environmental pertinence interface, wherein the one ormore pertinence factors further comprise at least one of access timedata, modification data, digital content size data, user exclusivitydata, relationship data, authorship data, mouse over data, or key worddata.
 23. The computer program product according to claim 17, whereinthe device location data associated with the mobile device is determinedvia analyzing scheduling data received from the mobile device.